High Area Efficiency Bidirectional Silicon-Controlled Rectifier for Low-Voltage Electrostatic Discharge Protection

Continuously scaling down and decreasing operation voltages of ICs, from the 5 V TTL-compatible voltage to 3.3 V, then 1.2 V, and now 0.8 V for low-power ICs, results in more stringent electrostatic discharge protection design requirements, such as a narrow ESD design window, low operation voltage,...

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Veröffentlicht in:	Electronics (Basel) 2023-10, Vol.12 (19), p.4011
Hauptverfasser:	Chen, Yipeng, Zhao, Dongyan, Zhou, Shicong, Zhu, Xinyu, Gao, Feng, Yuan, Yidong, Hu, Yi, Zhao, Tianting, Li, Xiaojuan, Dong, Shurong
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuit protection Current distribution Current leakage Diodes Efficiency Electric potential Electrons Electrostatic discharges Figure of merit Integrated circuits Metal oxide semiconductors MOS devices Robustness Silicon controlled rectifiers Simulation Strings Transistors Voltage
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container_title	Electronics (Basel)
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creator	Chen, Yipeng Zhao, Dongyan Zhou, Shicong Zhu, Xinyu Gao, Feng Yuan, Yidong Hu, Yi Zhao, Tianting Li, Xiaojuan Dong, Shurong
description	Continuously scaling down and decreasing operation voltages of ICs, from the 5 V TTL-compatible voltage to 3.3 V, then 1.2 V, and now 0.8 V for low-power ICs, results in more stringent electrostatic discharge protection design requirements, such as a narrow ESD design window, low operation voltage, and high ESD robustness. Based on traditional diode string and diode-triggered silicon-controlled rectifiers, an enhanced diode-triggered silicon-controlled rectifier is proposed to meet the requirements of low-voltage integrated circuits as bidirectional electrostatic discharge protection. The new device employs an additional PMOS and NMOS in the N-well and P-well, respectively, to offer additional current paths along the surface to significantly enhance its robustness. TCAD simulation shows that the device is triggered by both the diode strings and embedded MOS, making the device turn on faster and the current distribution more uniform during the ON state owing to the additional surface current paths. The proposed new device has excellent dual-directional ESD protection performance with a figure of merit of 4.01 mA/um2, which is about a 71% improvement compared with the conventional diode-triggered silicon-controlled rectifier. It also has higher area efficiency, lower trigger voltage, lower current leakage, and a faster turn-on speed. The proposed enhanced diode-triggered silicon-controlled rectifier is an attractive ESD protection solution for ultra-low-voltage ICs.
doi_str_mv	10.3390/electronics12194011
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Based on traditional diode string and diode-triggered silicon-controlled rectifiers, an enhanced diode-triggered silicon-controlled rectifier is proposed to meet the requirements of low-voltage integrated circuits as bidirectional electrostatic discharge protection. The new device employs an additional PMOS and NMOS in the N-well and P-well, respectively, to offer additional current paths along the surface to significantly enhance its robustness. TCAD simulation shows that the device is triggered by both the diode strings and embedded MOS, making the device turn on faster and the current distribution more uniform during the ON state owing to the additional surface current paths. The proposed new device has excellent dual-directional ESD protection performance with a figure of merit of 4.01 mA/um2, which is about a 71% improvement compared with the conventional diode-triggered silicon-controlled rectifier. It also has higher area efficiency, lower trigger voltage, lower current leakage, and a faster turn-on speed. The proposed enhanced diode-triggered silicon-controlled rectifier is an attractive ESD protection solution for ultra-low-voltage ICs.</description><identifier>ISSN: 2079-9292</identifier><identifier>EISSN: 2079-9292</identifier><identifier>DOI: 10.3390/electronics12194011</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Circuit protection ; Current distribution ; Current leakage ; Diodes ; Efficiency ; Electric potential ; Electrons ; Electrostatic discharges ; Figure of merit ; Integrated circuits ; Metal oxide semiconductors ; MOS devices ; Robustness ; Silicon controlled rectifiers ; Simulation ; Strings ; Transistors ; Voltage</subject><ispartof>Electronics (Basel), 2023-10, Vol.12 (19), p.4011</ispartof><rights>2023 by the authors. Licensee MDPI, Basel, Switzerland. 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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; MDPI - Multidisciplinary Digital Publishing Institute
subjects	Circuit protection Current distribution Current leakage Diodes Efficiency Electric potential Electrons Electrostatic discharges Figure of merit Integrated circuits Metal oxide semiconductors MOS devices Robustness Silicon controlled rectifiers Simulation Strings Transistors Voltage
title	High Area Efficiency Bidirectional Silicon-Controlled Rectifier for Low-Voltage Electrostatic Discharge Protection
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